Open Geospatial Consortium

Submission Date: 2018-11-04

Approval Date:   <yyyy-mm-dd>

Publication Date:   <yyyy-mm-dd>

External identifier of this OGC® document: http://www.opengis.net/doc/IS/HDF5/data-model/1.0

Internal reference number of this OGC® document: 18-043r1

Version: 1.0

Category: OGC® Implementation Specification

Editors:   Aleksandar Jelenak, Ted Habermann, Gerd Heber

OGC Hierarchical Data Format Version 5 (HDF5®) Core Standard

Copyright notice

Copyright © 2017 Open Geospatial Consortium

To obtain additional rights of use, visit http://www.opengeospatial.org/legal/

Warning

This document is not an OGC Standard. This document is distributed for review and comment. This document is subject to change without notice and may not be referred to as an OGC Standard.

Recipients of this document are invited to submit, with their comments, notification of any relevant patent rights of which they are aware and to provide supporting documentation.

Document type:

OGC® Standard

Document subtype:

Encoding

Document stage:

Draft

Document language:

English

License Agreement

The HDF Group

The company listed above has granted the Open Geospatial Consortium (OGC) a nonexclusive, royalty-free, paid up, worldwide license to copy and distribute this document and to modify this document and distribute copies of the modified version under an Apache 2.0 license (see below).

License Agreement

The standard is licensed under the Apache License, Version 2.0 (the "License"). You are directed to the License for specific details at: http://www.apache.org/licenses/LICENSE-2.0.

Table of Contents

i. Abstract

Hierarchical Data Format Version 5 (HDF5) is a data model, a programming interface, and a storage model for keeping and managing data. It supports an unlimited variety of data types, and is designed to be flexible and efficient for large and complex data. HDF5 is extensible via customizing data types, allowing communities and their applications to evolve in the use of HDF5.

This document describes the HDF5 data model as an encoding standard particularly suitable to scientific and engineering geospatial applications that employ multidimensional numeric arrays to describe temporally and spatially varying phenomena. The data model is simple yet versatile, capable of supporting complex data relationships and dependencies through its grouping and linking mechanisms. It is also self-describing by accommodating user-defined metadata.

ii. Keywords

The following are keywords to be used by search engines and document catalogues.

ogcdoc, OGC document, hdf, hdf5, hierarchical, data model, multidimensional array, big data

iii. Preface

This document describes the HDF5 data model as an OGC Implementation Specification. It contains the required terms and definitions of the HDF5 data model and its conformance classes and tests.

HDF5 is already in use by the OGC community. The NetCDF Enhanced Data Model (OGC 11-038r2) is a strict subset of the HDF5 data model and its storage model is also HDF5. However, the HDF5 data model includes several entities whose features go significantly beyond those of the NetCDF Enhanced model. Furthermore, OGC members are starting to use HDF5 as a standard format for more complex data types. In particular, HDF5 has been proposed as at least two standards for point cloud data in the OGC Point Cloud Domain Working Group [1]; has been demonstrated as a GDAL compliant format for images (KEA) [2]; and is also used as an open standard for other geographic data, e.g. the Bathymetric Attributed Grid (BAG) format [3] that is the basis for International Hydrographic Organization’s standards. Given this situation, it is appropriate to consider the standardization of other elements of the HDF5 ecosystem which will all be based on this document.

Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights. The Open Geospatial Consortium shall not be held responsible for identifying any or all such patent rights.

Recipients of this document are requested to submit, with their comments, notification of any relevant patent claims or other intellectual property rights of which they may be aware that might be infringed by any implementation of the standard set forth in this document, and to provide supporting documentation.

iv. Submitting organizations

The following organizations submitted this Implementation Specification to the Open Geospatial Consortium (OGC):

  • The HDF Group, Inc.

  • U.S. National Aeronautics and Space Administration (NASA)

v. Submitters

All questions regarding this submission should be directed to the editors or the submitters:

Name Affiliation

Aleksandar Jelenak

The HDF Group, Inc.

Ted Habermann

The HDF Group, Inc.

1. Scope

This document defines the HDF5 data model and the conformance requirements every implementation must comply with.

2. Conformance

This standard defines a single requirements class, Core, with URI:

with a single accompanying conformance class, Core with URI:

Conformance with this standard shall be checked using all the relevant tests specified in Annex A (normative) of this document. The framework, concepts, and methodology for testing, and the criteria to be achieved to claim conformance are specified in the OGC Compliance Testing Policies and Procedures and the OGC Compliance Testing web site.

3. References

The following normative documents contain provisions that, through reference in this text, constitute provisions of this document. For dated references, subsequent amendments to, or revisions of, any of these publications do not apply. For undated references, the latest edition of the normative document referred to applies.

[ISO2382] ISO/IEC: ISO 2382:2015 Information technology — Vocabulary (2015)

[ISO19118] ISO/TC211: ISO 19118:2011 Geographic information — Encoding (2011)

[ISO11179] ISO/IEC: ISO 11179-1:2004(E) Information technology — Metadata registries (MDR) — Part 1: Framework (2004)

4. Terms and Definitions

This document uses the terms defined in Sub-clause 5.3 of [OGC 06-121r8], which is based on the ISO/IEC Directives, Part 2, Rules for the structure and drafting of International Standards. In particular, the word “shall” (not “must”) is the verb form used to indicate a requirement to be strictly followed to conform to this standard.

For the purposes of this document, the following additional terms and definitions apply.

4.1. address

Value that identifies a location.

4.2. array

An instance of an array type where each element or appropriate group of elements may be referenced randomly and independently of the others [ISO2382]. A non-degenerate array has a rectilinear shape described by its rank (dimensionality) and extent. There are two degenerate cases: empty arrays (so-called null arrays), and arrays that consist of only a single element (scalars).

4.3. array type

Composite type whose components are of the same data type [ISO2382].

4.4. array variable

A variable capable of assuming values of an array type.

4.5. atomic type

Data type, each data object of which consists of a single non-decomposable data value. [ISO2382]

4.6. bit

Either of the digits 0 or 1 when used in the binary system [ISO2382].

4.7. byte

String that consists of a number of bits, treated as a unit, and usually representing a character or a part of a character [ISO2382]. The number of bits in a byte is fixed for a given data processing system. The number of bits in a byte is usually eight (8).

4.8. composite type

Data type that has a structure composed of the data structures of one or more data types and that has its own set of permissible operations [ISO2382].

4.9. data

Reinterpretable representation of information in a formalized manner suitable for communication, interpretation, or processing [ISO2382].

4.10. data element

Unit of data that is considered in context to be indivisible [ISO2382].

4.11. data model

Graphical and/or lexical representation of data, specifying their properties, structure and inter-relationships [ISO11179].

4.12. data processing system

One or more computers, peripheral equipment, and software that perform data processing [ISO2382].

4.13. data type

Defined set of data objects of a specified data structure and a set of permissible operations, such that these data objects act as operands in the execution of any one of these operations [ISO2382].

4.14. directed graph

A graph where the edges are represented by ordered pairs of vertices and an implied edge direction (or orientation) from the first to the second vertex.

4.15. directed path

A finite sequence of directed graph edges (arcs, lines) where for all edges but the last the edge’s second vertex is identical to the next edge’s first vertex.

4.16. entity

Any concrete or abstract thing that exists, did exist, or might exist, including associations among these things [ISO2382].

4.17. encoding

Conversion of data into a series of codes [ISO11179].

4.18. file

Named set of records stored or processed as a unit [ISO2382].

4.19. graph

A non-empty, finite set of vertices (nodes) and a set of edges (arcs, lines) that connect pairs of vertices. An edge can also connect one vertex to itself.

4.20. HDF5 attribute

A named array variable ascribed to an HDF5 object, its owner or assignee.

4.21. HDF5 committed datatype

An immutable kind of HDF5 object that is used to store an HDF5 datatype definition, which can be referenced by multiple HDF5 datasets and HDF5 attributes.

4.22. HDF5 container

A mapping of an HDF5 object graph into storage such as one or more files in a file system, a buffer in memory, or an object store.

4.23. HDF5 dataset

An array variable linked to one or more HDF5 groups.

4.24. HDF5 dataset region reference

An HDF5 datatype whose values represent references to a subset of elements of an HDF5 dataset. Logically, such a reference can be thought of as a pair which consists of a reference to an HDF5 dataset and a boolean array variable of the same shape as the dataset where boolean true/false might indicate the inclusion/exclusion in/from the subset.

4.25. HDF5 dataspace

  1. A rectilinear multidimensional lattice with finite extent (Simple).

  2. A single point (Scalar).

  3. The empty set (Null).

4.26. HDF5 datatype

A description of the data type of a data element including its storage layout as a pattern of bits.

4.27. HDF5 entity

A member of the HDF5 data model.

4.28. HDF5 group

An HDF5 object that is a collection of zero or more HDF5 links.

A named, unidirectional association between an HDF5 group and an HDF5 object.

4.30. HDF5 object

An HDF5 group, dataset or committed datatype; an HDF5 entity that can be linked to zero or more HDF5 groups and assigned zero or more HDF5 attributes.

4.31. HDF5 object graph

A rooted, directed multigraph whose edges consist of HDF5 links, and whose vertices consist of all HDF5 objects which can be reached by traversing the edges starting from the HDF5 root group.

4.32. HDF5 object reference

An HDF5 datatype whose values represent references to HDF5 objects in an HDF5 container.

4.33. HDF5 path name

A finite-length sequence of HDF5 link names. HDF5 path names are used to locate and refer to HDF5 objects.

4.34. instance

Concrete module created from a generic module by generic instantiation [ISO2382].

4.35. metadata

Data about data or data elements, possibly including their data descriptions, and data about data ownership, access paths, access rights and data volatility [ISO2382].

4.36. multigraph

A graph with multiple edges connecting the same two vertices.

4.37. process

Predetermined course of events that occur during the execution of all or part of a program [ISO2382].

4.38. program

Syntactic unit that conforms to the rules of a particular programming language and that is composed of declarations and statements or instructions needed to solve a certain function, task, or problem [ISO2382].

4.39. programming language

Artificial language for expressing programs [ISO2382].

4.40. rank

A positive integer denoting the number of dimensions (dimensionality) of an array variable.

4.41. record

Set of data elements treated as a unit [ISO2382].

4.42. rooted directed graph

A graph with a single distinguished vertex, referred to as the root, and where all its other vertices can be reached by at least one directed path from the root.

5. Conventions

These sections provide details and examples for any conventions used in the document. Examples of conventions are symbols, abbreviations, use of XML schema, or special notes regarding how to read the document.

5.1. Identifiers

The normative provisions in this specification are denoted by the URI: http://www.opengis.net/spec/HDF5/data-model/1.0.

Any partial URI that may appear in this document’s requirements and conformance tests shall be considered relative to this base.

5.2. UML Notation

All the diagrams included in this document use the Unified Modeling Language (UML) static structure diagrams, as described in Subclause 5.2 of OGC Web Services Common [OGC 06-121r8].

5.3. Abbreviations

The following abbreviations are being used throughout this document:

GDAL

Geospatial Data Abstraction Library

HDF5

Hierarchical Data Format Version 5

IEC

International Electrotechnical Commission

ISO

International Organization for Standardization

NetCDF

Network Common Data Form

OGC

Open Geospatial Consortium

UML

Unified Modeling Language

6. HDF5 Data Model Overview (Informative)

This clause describes the HDF5 data model in more detail. Most of the presented material is taken from [4] and [5] which are recommended as the definitive sources of information.

The HDF5 data model consists of six entities: Group, Dataset, Link, Datatype, Dataspace, and Attribute, as illustrated in Figure 1.

Entities of the HDF5 data model.
Figure 1. Entities of the HDF5 data model.

Each of these entities are explained below in separate subclauses.

An HDF5 link connects an HDF5 group, its source, with another HDF5 object (group, dataset, or committed datatype) and is the means by which group membership is established. The object that a link connects to is referred to as the link’s target.

An HDF5 link has a name associated with it. The name is a Unicode string that identifies the link within its source HDF5 group. A link’s name is used to resolve the link, i.e., to locate the link’s target. Because of this link names within one HDF5 group must be unique although there is no limit on how many links can have the same source HDF5 group and/or the same target. It is possible for HDF5 links to "dangle", i.e., their targets can be undefined or unavailable.

HDF5 links are the mean of traversing an HDF5 object graph, as depicted in Figure 2. Each vertex of the graph represents either an HDF5 group, dataset, or committed datatype. The identifiers associated with each HDF5 object in the graph are only to aid explanation in this text and are not part of the data model. However, an implementation would need to adopt some form of identification in order to distinguish different HDF5 objects.

HDF5 object graph.
Figure 2. An example of HDF5 object graph as a rooted directed multigraph. Folder-shaped objects represent HDF5 groups; rectangles are HDF5 datasets; and the octagon is an HDF5 committed datatype.

One of the HDF5 groups in the graph is distinguished from the other groups because all the other objects can be reached by following one or more HDF5 links only starting from it. This HDF5 group has a special name: root group, and the data model allows only one such group to exist.

The names of the sequence of HDF5 links which lead to a specific HDF5 object form that object’s HDF5 path name. One HDF5 object can have more than one path name. HDF5 path names starting from the root group are called absolute, while those starting from any other HDF5 group are called relative. For example, these are all HDF5 absolute path names to reach the HDF5 dataset id:951: (a, c, c), (a, c, d, p), and (a, f, p). Few examples of HDF5 relative path names to the same dataset are: (f, p) from the id:100 group, and (d, p) or (c) from the id:591 group.

Cyclical path names (the start and end group are the same) are possible. Two examples in Figure 2: the HDF5 absolute path (a, f, b) from the root group, and the relative path (loop) of the id:591 group.

6.2. HDF5 Group

The HDF5 Group is a container of zero or more HDF5 links and has a functionality akin to a file system directory. With the exception of the root group, any other group of an HDF5 object graph is the link target of one HDF5 group.

An HDF5 object linked into a group is said to be a member of that group. The same HDF5 object can be a member of one or more groups. An example of this in Figure 2 is the id:951 dataset which is a member of both id:591 and id:684 groups.

6.3. HDF5 Datatype

An HDF5 datatype describes an individual data element of an HDF5 dataset or attribute. It specifies the set of possible values a data element can have and the set of operations that can be performed on it. The data model recognizes 10 different classes of HDF5 datatypes that fall into two major categories: atomic and composite, as depicted in Figure 3. Expected set of data values for each datatype class is listed in Table 3.

Classification of HDF5 datatypes.
Figure 3. Classification of HDF5 datatypes.

An HDF5 dataset or attribute has an HDF5 datatype associated with it. The datatype may either be private to that dataset or attribute, or be linked into an HDF5 object graph and be available for reuse by other HDF5 datasets and attributes. A linked HDF5 datatype is referred to as committed datatype. An example of committed datatype in Figure 2 is the id:802 object with the HDF5 absolute path (a, c, my uint).

6.4. HDF5 Dataspace

An HDF5 dataspace describes the dimensionality (rank) and extent (the size of each dimension) of the data array associated with an HDF5 dataset or attribute object. The data model recognizes three different types of HDF5 dataspaces which properties are listed in Table 2.

6.5. HDF5 Dataset

The HDF5 Dataset is the main entity of the data model for storing data. An HDF5 dataset is comprised of a multidimensional array, an HDF5 datatype describing the array’s data elements, and an HDF5 dataspace specifying the array’s rank and extent.

6.6. HDF5 Attribute

HDF5 groups, datasets, and committed datatypes may be assigned zero or more HDF5 attributes. Each HDF5 attribute is private to the assignee HDF5 object.

An HDF5 attribute is a multidimensional array with a name. The array requires an HDF5 datatype and an HDF5 dataspace, the same as an HDF5 dataset.

An HDF5 attribute is functionally similar to an HDF5 dataset with the following differences:

  • An attribute can only be accessed via the HDF5 object it was assigned to.

  • Attribute names are significant only within the HDF5 object.

  • Attributes cannot have attributes.

HDF5 attributes support the self-descriptiveness of the data encoded with the HDF5 data model by holding user-created metadata.

7. HDF5 Data Model Requirements (Normative)

The requirements defining compliance with the HDF5 data model are stated in the following subclauses. This is not an encoding but a set of concepts that could be implemented in numerous ways or technology.

7.1. Requirements Class: Core

The core requirements every implementation of the HDF5 data model must fulfill are listed in Table 1. Their normative definitions are given in the subsequent subclauses.

Table 1. List of the requirements for the requirement class Core.

Requirements Class

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core

Target type

HDF5 container

Dependency

None

Requirement 1

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/file-content
The content is based on the HDF5 data model.

Requirement 2

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/root-group
Exactly one root group exists.

Requirement 3

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/reachability
Reachability of HDF5 groups, datasets, and committed datatypes.

Requirement 4

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/datatypes
HDF5 datasets and attributes have one of the supported HDF5 datatypes.

Requirement 5

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/committed-datatypes
Every HDF5 committed datatype belong to one of the HDF5 Datatype classes.

Requirement 6

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/dataspaces
HDF5 datasets and attributes have valid HDF5 dataspaces.

Requirement 7

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/attributes
HDF5 attributes are attached only to HDF5 groups, datasets, and committed datatypes.

Requirement 8

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/unique-attribute-name
HDF5 attributes of one HDF5 object have unique names.

Requirement 9

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/name-charset
Character set of HDF5 link and HDF5 attribute names.

Requirement 10

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/group-link-names
HDF5 link names in an HDF5 group.

Requirement 11

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/link-source
Which HDF5 objects can be HDF5 link sources.

Requirement 12

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/link-target
HDF5 link targets can be undefined.

Requirement 13

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/dataspace-dimsize
Simple HDF5 dataspace must report sizes of its dimensions.

Requirement 14

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/datatype-classes
HDF5 datatype classes.

7.1.1. Requirement 1

Requirement 1

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/file-content

Information stored shall be encoded using the entities of the HDF5 data model as shown in Figure 1.

7.1.2. Requirement 2

Requirement 2

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/root-group

Exactly one root group shall exist.

7.1.3. Requirement 3

Requirement 3

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/reachability

Every HDF5 group, dataset, or committed datatype shall be reachable via HDF5 links starting from the root group or by dereferencing a data element of the type HDF5 object reference belonging to an HDF5 dataset or attribute.

7.1.4. Requirement 4

Requirement 4

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/datatypes

Every HDF5 dataset and attribute shall have an HDF5 datatype belonging to one of the classes shown in Figure 3.

7.1.5. Requirement 5

Requirement 5

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/committed-datatypes

Every HDF5 committed datatype shall belong to one of the classes shown in Figure 3.

7.1.6. Requirement 6

Requirement 6

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/dataspaces

Every HDF5 dataset and attribute shall have an HDF5 dataspace of type: Null, Scalar, or Simple.

HDF5 Dataspace types are explained in Table 2.

Table 2. HDF5 Dataspace types.
Type Definition Dimensionality (Rank)

Null

Empty set

Not applicable

Scalar

Singleton

Not applicable

Simple

Multidimensional array of data elements

Less than 33

7.1.7. Requirement 7

Requirement 7

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/attributes

Every HDF5 attribute shall belong to only one of the HDF5 groups, datasets, or committed datatypes.

7.1.8. Requirement 8

Requirement 8

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/unique-attribute-name

The names of all HDF5 attributes belonging to the same HDF5 object shall be unique.

7.1.9. Requirement 9

Requirement 9

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/name-charset

The character set of HDF5 link or HDF5 attribute names shall be Unicode.

7.1.10. Requirement 10

Requirement 10

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/group-link-names

The names of all HDF5 links within each HDF5 group shall be unique.

7.1.11. Requirement 11

Requirement 11

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/link-source

Only HDF5 groups shall be sources of HDF5 links.

7.1.12. Requirement 12

Requirement 12

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/link-target

The target of an HDF5 link might be undefined or unavailable.

7.1.13. Requirement 13

Requirement 13

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/dataspace-dimsize

A Simple HDF5 dataspace shall report the extent for each of its dimensions.

7.1.14. Requirement 14

Requirement 14

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/datatype-classes

HDF5 datatypes shall provide implementation-conforming representations of the data classes described in Table 3.

Table 3. HDF5 Datatype classes.

Atomic datatype classes

Class

Description of value set

Integer

Range of integer values from −9,223,372,036,854,775,808 (-263) to 18,446,744,073,709,551,615 (264-1).

Floating-point

Range of values as specified by the IEEE 754 double-precision binary floating-point.

String

Unicode strings.

Bitfield

Fixed-length sequences of bits.

Enumeration

A set of Unicode string-named integer constants.

Opaque

Unicode string-tagged set of fixed-length sequences of uninterpreted bytes.

Reference

Either the set of HDF5 object references or the set of HDF5 region references.

Composite datatype classes

Class

Description of value set

Array

Arrays of fixed rank and extent with elements of the same HDF5 datatype class.

Variable-Length Sequence

Variable-length sequences of elements of the same HDF5 datatype class.

Compound

Tuples of values of the same heading, where the heading consists of a fixed-length sequence of (Unicode string field name, field HDF5 datatype) pairs.

8. Media Types for any data encoding(s)

The MIME type application/x-hdf5 is unregistered and it doesn’t appear in the list at http://www.iana.org/assignments/media-types/index.html. However, it is in common use as evidenced by appearing in [6], [7], and [8].

Annex A: Conformance Class Abstract Test Suite (Normative)

A.1. Conformance Class: Core

A.1.1. Requirement 1

Test id:

http://www.opengis.net/spec/HDF5/data-model/1.0/conf/core/file-content

Requirement:

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/file-content

Test purpose:

Verify that the stored information is composed of the HDF5 data model entities.

Test method:

Inspect the implementation to confirm the above requirement.

A.1.2. Requirement 2

Test id:

http://www.opengis.net/spec/HDF5/data-model/1.0/conf/core/root-group

Requirement:

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/root-group

Test purpose:

Verify that there is only one root group.

Test method:

Inspect the implementation to confirm the above requirement.

A.1.3. Requirement 3

Test id:

http://www.opengis.net/spec/HDF5/data-model/1.0/conf/core/reachability

Requirement:

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/reachability

Test purpose:

Verify that all HDF5 groups, datasets, and committed datatypes can be accessed either by using HDF5 links starting from the root group, or via HDF5 object references stored in HDF5 datasets and attributes.

Test method:

Inspect the implementation to confirm the above requirement.

A.1.4. Requirement 4

Test id:

http://www.opengis.net/spec/HDF5/data-model/1.0/conf/core/datatypes

Requirement:

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/datatypes

Test purpose:

Verify that the datatype of every HDF5 dataset and HDF5 attribute belongs to one of the HDF5 datatype classes in Table 3.

Test method:

Inspect the implementation to confirm the above requirement.

A.1.5. Requirement 5

Test id:

http://www.opengis.net/spec/HDF5/data-model/1.0/conf/core/committed-datatypes

Requirement:

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/committed-datatypes

Test purpose:

Verify that every HDF5 committed datatype belongs to one of the HDF5 datatype classes in Table 3.

Test method:

Inspect the implementation to confirm the above requirement.

A.1.6. Requirement 6

Test id:

http://www.opengis.net/spec/HDF5/data-model/1.0/conf/core/dataspaces

Requirement:

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/dataspaces

Test purpose:

Verify that the dataspace of every HDF5 dataset and HDF5 attribute belongs to one of the HDF5 dataspace types in Table 2.

Test method:

Inspect the implementation to confirm the above requirement.

A.1.7. Requirement 7

Test id:

http://www.opengis.net/spec/HDF5/data-model/1.0/conf/core/attributes

Requirement:

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/attributes

Test purpose:

Verify that every HDF5 attribute belongs to only one of the HDF5 groups, datasets, or committed datatypes.

Test method:

Inspect the implementation to confirm the above requirement.

A.1.8. Requirement 8

Test id:

http://www.opengis.net/spec/HDF5/data-model/1.0/conf/core/unique-attribute-name

Requirement:

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/unique-attribute-name

Test purpose:

Verify that the names of all HDF5 attributes ascribed to the same HDF5 object are unique.

Test method:

Inspect the implementation to confirm the above requirement.

A.1.9. Requirement 9

Test id:

http://www.opengis.net/spec/HDF5/data-model/1.0/conf/core/name-charset

Requirement:

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/name-charset

Test purpose:

Verify that the character set of every HDF5 link and HDF5 attribute name is Unicode.

Test method:

Inspect the implementation to confirm the above requirement.

A.1.10. Requirement 10

Test id:

http://www.opengis.net/spec/HDF5/data-model/1.0/conf/core/group-link-names

Requirement:

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/group-link-names

Test purpose:

Verify that for every HDF5 group the names of all HDF5 links sourced from it are unique.

Test method:

Inspect the implementation to confirm the above requirement.

A.1.11. Requirement 11

Test id:

http://www.opengis.net/spec/HDF5/data-model/1.0/conf/core/link-source

Requirement:

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/link-source

Test purpose:

Verify that only HDF5 groups are the sources of HDF5 links.

Test method:

Inspect the implementation to confirm the above requirement.

A.1.12. Requirement 12

Test id:

http://www.opengis.net/spec/HDF5/data-model/1.0/conf/core/link-target

Requirement:

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/link-target

Test purpose:

Verify that the target of an HDF5 link can be undefined or not available.

Test method:

Inspect the implementation to confirm the above requirement.

A.1.13. Requirement 13

Test id:

http://www.opengis.net/spec/HDF5/data-model/1.0/conf/core/dataspace-dimsize

Requirement:

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/dataspace-dimsize

Test purpose:

Verify that the HDF5 Simple Dataspace can report the extent (size) of every dimension.

Test method:

Inspect the implementation to confirm the above requirement.

A.1.14. Requirement 14

Test id:

http://www.opengis.net/spec/HDF5/data-model/1.0/conf/core/datatype-classes

Requirement:

http://www.opengis.net/spec/HDF5/data-model/1.0/req/core/datatype-classes

Test purpose:

Verify that the HDF5 Datatype classes in Table 3 are supported.

Test method:

Inspect the implementation to confirm the above requirement.

Annex B: Mapping Between NetCDF Enhanced and HDF5 Data Models (Informative)

The netCDF Enhanced data model is already an OGC Implementation Standard (OGC 11-038r2). Its storage model, known as the netCDF-4 format, is HDF5 which means the data model’s entities can be represented using the HDF5 data model. The following table provides the mapping between the features of these two data models.

Table 4. Mapping between features of the netCDF Enhanced and HDF5 data models.
netCDF Enhanced HDF5 Note

Dataset

Container

 — 

Group

Group

 — 

Top-level, unnamed group

Root group

The netCDF Enhanced model refers to the HDF5 root group as unnamed due to the backward compatibility requirement with the older netCDF Classic data model (OGC 10-090r3) which lacks grouping capability.

Dimension

Dataset

The HDF5 dataset has several HDF5 attributes with specific names and values.

Variable

Dataset

 — 

Attribute

Attribute

The netCDF Enhanced attribute can only store a scalar or one-dimensional array.

Global attribute

Root group attribute

 — 

Variable attribute

Dataset attribute

 — 

Variable or attribute data type

Datatype

 — 

Variable shape

Dataspace

 — 

Primitive data type

Atomic datatype

netCDF Enhanced primitive datatypes do not include the following HDF5 atomic datatypes: Opaque, Bitfield, and Reference.

User-defined data type

Composite datatype

The netCDF Enhanced user-defined data types do not include the composite HDF5 Array datatype but include the atomic HDF5 Opaque datatype.

Group or variable name

Link name

Only one HDF5 link per netCDF group or variable is allowed, i.e. netCDF groups and variables cannot have multiple path names.

Group or variable hierarchy

Path name

The netCDF Enhanced data model implements strict tree-structured hierarchy, i.e. circular paths through the netCDF dataset object graph — as in the HDF5 data model — are not possible.

Annex C: Revision History

Date Release Editor Primary clauses modified Description

2018-05-03

18-043

Aleksandar Jelenak

All

Initial version.

2018-11-04

18-043r1

Aleksandar Jelenak

Title page

  • New license agreement.

  • Add a registered trademark sign to HDF5 in the title.

Annex D: Bibliography

  1. M. Ingram, “Advanced Point Cloud Format Standards.” Presentation in the OGC Point Cloud DWG Session, Washington, D.C., Mar-2016 [Online]. Available: https://portal.opengeospatial.org/files/?artifact_id=67558

  2. P. Bunting and S. Gillingham, “The KEA image file format,” Computers & Geosciences, vol. 57, no. Supplement C, pp. 54–58, 2013 [Online]. Available: http://www.sciencedirect.com/science/article/pii/S0098300413001015

  3. “Bathymetric Surface Product Specification,” no. S-102. International Hydrographic Organization, 2012 [Online]. Available: https://www.iho.int/iho_pubs/standard/S-102/S-102_Ed1.0.0_Apr12.pdf

  4. The HDF Group, “HDF5 User’s Guide, Abstract Data Model.” 2017 [Online]. Available: https://support.hdfgroup.org/HDF5/doc/UG/HDF5_Users_Guide-Responsive%20HTML5/index.html#t=HDF5_Users_Guide%2FDataModelAndFileStructure%2FThe_HDF5_Data_Model_and_File_Structure.htm%3Frhtocid%3Dtoc1.1%23TOC_1_2_The_Abstract_Databc-2

  5. M. Folk and E. Pourmal, “HDF5 Data Model, File Format and Library–HDF5 1.6,” NASA ESDIS Standards Office, ESDS-RFC-007v1, 2007 [Online]. Available: https://earthdata.nasa.gov/standards/hdf5

  6. Scilab GitHub repository, “scilab.xml.” [Online]. Available: https://github.com/opencollab/scilab/blob/bd38cc4979d86a2240aeef4a277373da97afe516/scilab/desktop/scilab.xml

  7. Wolfram Language & System Documentation Center, “HDF5.” [Online]. Available: https://reference.wolfram.com/language/ref/format/HDF5.html

  8. Research Data Netherlands, “Essentials 4 Data Support, Data Formats.” [Online]. Available: http://datasupport.researchdata.nl/en/start-de-cursus/iii-onderzoeksfase/dataformaten/mime-types/